A touch faucet contains: a body, a temperature control valve, a water control valve, and an actuation member. The body includes an inlet segment, an outlet segment, and a first cavity which has a first hole. The temperature control valve is housed in the first cavity and includes a water inflow portion configured to flow cold water and hot water, a mixing chamber in which the cold water and the hot water are mixed to form a mixing water, and a water outflow portion configured to flow the mix water. The water control valve includes an operation post touched to turn on the water control valve, such that the mixing water flows into the water outflow portion from the mixing chamber, and the actuation member partially exposes outside the body so as to be operated by a user to drive the operation post to move.
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1. A touch faucet comprising:
a body including an inlet segment, an outlet segment, and a first cavity defined between the inlet segment and the outlet segment; the first cavity having a first hole;
a temperature control valve housed in the first cavity of the body, and the temperature control valve including a water inflow portion configured to flow cold water and hot water, a mixing chamber in which the cold water and the hot water are mixed together at a predetermined ratio so as to form a mixing water, and a water outflow portion configured to flow the mix water; the water outflow portion being in communication with the outlet segment of the body so that the mixing water flows out of the outlet segment;
a water control valve fixed between the mixing chamber and the water outflow portion of the temperature control valve, and the water control valve including an operation post extending outwardly therefrom and touched to turn on the water control valve, such that the mixing water flows into the water outflow portion from the mixing chamber; and
an actuation member partially exposing outside the body so as to be operated by a user to drive the operation post of the water control valve to move;
wherein the body includes a cylinder and a water supply assembly: the cylinder has the inlet segment and the first cavity; and the water supply assembly has the outlet segment communicating with the water outflow portion of the temperature control valve via the cylinder, such that the mixing water flows into the outlet segment from the water outflow portion;
wherein the water supply assembly has a casing secured on an outer wall of the cylinder, a holder accommodated in the casing adjacent to the outlet segment, a first outlet tube mounted between the holder and the water outflow portion, and an aerator fixed in the holder.
17. A touch faucet comprising:
a body including an inlet segment, an outlet segment, and a first cavity defined between the inlet segment and the outlet segment; the first cavity having a first hole;
a temperature control valve housed in the first cavity of the body, and the temperature control valve including a water inflow portion configured to flow cold water and hot water, a mixing chamber in which the cold water and the hot water are mixed together at a predetermined ratio so as to form a mixing water, and a water outflow portion configured to flow the mix water, the water outflow portion being in communication with the outlet segment of the body so that the mixing water flows out of the outlet segment;
a water control valve fixed between the mixing chamber and the water outflow portion of the temperature control valve, and the water control valve including an operation post extending outwardly therefrom and touched to turn on the water control valve, such that the mixing water flows into the water outflow portion from the mixing chamber; and
an actuation member partially exposing outside the body so as to be operated by a user to drive the operation post of the water control valve to move;
wherein the body includes a cylinder and a water supply assembly; the cylinder has the inlet segment and the first cavity; and the water supply assembly has the outlet segment communicating with the water outflow portion of the temperature control valve via the cylinder, such that the mixing water flows into the outlet segment from the water outflow portion;
wherein the temperature control further includes:
a valve seat housed in the first cavity of the body, a first conduit configured to flow the cold water, and a second conduit configured to flow the hot water, hence the first conduit and the second conduit form the water inflow portion;
a valve core connecting with the valve seat and having the mixing chamber defined in the valve core, the valve core also having a flowing channel configured to flow the mixing water and communicating with the mixing chamber, wherein the flowing channel is located at the water outflow portion; and
an adjustment column rotatably fitted with the valve core within a rotatable range and limited between the valve core and the valve seat; between the adjustment column and the valve core being defined a cold-water passage and a hot-water passage; wherein when the adjustment column is rotated, a communicating portion of the cold-water passage and the first conduit and a communicating portion of the hot-water passage and the second conduit are adjustable so as to control a mixing ratio and a mixing temperature of the cold water and the hot water in the mixing chamber.
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a valve seat housed in the first cavity of the body, a first conduit configured to flow the cold water, and a second conduit configured to flow the hot water, hence the first conduit and the second conduit form the water inflow portion;
a valve core connecting with the valve seat and having the mixing chamber defined in the valve core, the valve core also having a flowing channel configured to flow the mixing water and communicating with the mixing chamber, wherein the flowing channel is located at the water outflow portion; and
an adjustment column rotatably fitted with the valve core within a rotatable range and limited between the valve core and the valve seat; between the adjustment column and the valve core being defined a cold-water passage and a hot-water passage; wherein when the adjustment column is rotated, a communicating portion of the cold-water passage and the first conduit and a communicating portion of the hot-water passage and the second conduit are adjustable so as to control a mixing ratio and a mixing temperature of the cold water and the hot water in the mixing chamber.
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The present invention relates to a faucet, and more particularly to a touch faucet.
A conventional control valve for a spray head of a faucet is manufactured at high cost and is complicated. Accordingly, improved touch control valves were disclosed in TW Patent Nos. M432670, I228578, I369459, M452280 and M382408, respectively. The improved touch control valves are an automatic valve or a manual valve, wherein when the touch control valves are the manual valve, water supply is stopped by touching an actuation element, after starting the water supply. When the touch control valves are the automatic valve, the water supply is stopped automatically by way of water pressure change after a period of using time.
In addition, one touch control valves are sold by many companies, such as 3M, wherein each one touch control valve is fixed on an outlet of the faucet and the water supply is started or stopped by manually touching an actuation element in the control valve, thus causing contamination to the actuation element.
A conventional faucet contains a handle and a central shaft driven by the handle so as to control water supply or to adjust temperature of the water supply. But an operation travel is too long to operate the faucet smoothly and to obtain aesthetics appearance of the control valve.
A conventional pull-out or non pull-out faucet contains an infrared sensor for sensing user's hand, yet the pull-out or non pull-out faucet cannot be controlled as the infrared sensor or a circuit board is broken.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
The primary objective of the present invention is to provide a touch faucet which is capable of overcoming the shortcomings of the conventional touch faucet.
To obtain the above objective, a touch faucet provided by the present invention contains: a body, a temperature control valve, a water control valve, and an actuation member.
The body includes an inlet segment, an outlet segment, and a first cavity defined between the inlet segment and the outlet segment; wherein the first cavity has a first hole.
The temperature control valve is housed in the first cavity of the body, and the temperature control valve includes a water inflow portion configured to flow cold water and hot water, a mixing chamber in which the cold water and the hot water are mixed together at a predetermined ratio so as to form a mixing water, and a water outflow portion configured to flow the mix water; wherein the water outflow portion is in communication with the outlet segment of the body so that the mixing water flows out of the outlet segment.
The water control valve is fixed between the mixing chamber and the water outflow portion of the temperature control valve, and the water control valve includes an operation post extending outwardly therefrom and touched to turn on the water control valve, such that the mixing water flows into the water outflow portion from the mixing chamber.
The actuation member partially exposes outside the body so as to be operated by a user to drive the operation post of the water control valve to move.
Accordingly, the water control valve is capable of saving and stopping the water supply automatically. For example, when the operation post is driven to move, the water supply of the touch faucet is started for a period of time, and after the operation post automatically moves back to the original position, the water supply is stopped.
When the water control valve cannot stop the water supply, the actuation member is pressed so that the water control valve stops the water supply.
Preferably, the actuation member cooperates with the returning device so as to return back to the original positions automatically.
The actuation member is pressed to drive the operation post of the water control valve to stop the water supply easily.
The actuation member drives the water control valve so as to avoid the water control valve being touched by user's hand, thus preventing contamination of the water control valve.
The touch faucet is a pull-out faucet or a non pull-out faucet fixed in the bathroom or the kitchen so as to satisfy using requirements.
The touch faucet is capable of saving the water supply and adjusting water temperature by way of the water control valve and the temperature control valve.
With reference to
Referring to
The temperature control valve 20 is housed in the first cavity 13 from the first hole 131 of the body 10, and the temperature control valve 20 includes a water inflow portion 21 configured to flow cold water and hot water, a mixing chamber 22 in which the cold water and the hot water are mixed together at a predetermined ratio so as to form a mixing water, and a water outflow portion 23 configured to flow the mix water, wherein the water outflow portion 23 is in communication with the outlet segment 12 of the body 10 so that the mixing water flows out of the outlet segment 12.
The water control valve 30 is fixed between the mixing chamber 22 and the water outflow portion 23 of the temperature control valve 20, and the water control valve 30 includes an operation post 31 extending outwardly therefrom and touched to turn on the water control valve 30, such that the mixing water flows into the water outflow portion 23 from the mixing chamber 22.
The actuation member 40 partially exposes outside the body 10 so as to be operated by a user to drive the operation post 31 to move.
The actuation member 40 includes a driving portion 41 inserted into the water outflow portion 23 of the temperature control valve 20, wherein the actuation member 40 is pressed to move along an axial line X of the water outflow portion 23 so that the driving portion 41 drives the operation post 31 of the water control valve 30 to move.
The touch faucet 1 further comprises a returning device 50 configured to return the actuation member 40 back to an original position after not pressing the actuation member 40, wherein the returning device 50 is a resilient element, such as a disc spring, which is defined between the actuation member 40 and the water outflow portion 23, as illustrated in
Alternatively, the returning device 50 includes a first magnetic attraction element and a second magnetic attraction element which are defined between the actuation member 40 and the water outflow portion 23, such that when the actuation member 40 is pressed to move, the first magnetic attraction element and the second magnetic attraction element move to each other, thus producing magnetic repulsion.
Referring to
The water supply assembly 10b has a casing 141 secured on an outer wall of the cylinder 10a, a holder 142 accommodated in the casing 141 adjacent to the outlet segment 12, a first outlet tube 143 mounted between the holder 142 and the water outflow portion 23, and an aerator 144 fixed in the holder 142 so that the mixing water flows out of the aerator 144 from the water outflow portion 23 via the first outlet tube 143 and the holder 142.
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a valve seat 25, as illustrated in
a valve core 26, as shown in
an adjustment column 27, as shown in
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Furthermore, a screw rod 256 inserts through the fifth hole 156 of the support fence 152 so as to screw with the second threaded orifice 254 and to lock with a screwing element 250, as illustrated in
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The adjustment column 20a is rotatably fixed in the first cavity 13 of the columnar part 101 within a rotatable range and includes the water inflow portion 21, the mixing chamber 22, and the water outflow portion 23. The water inflow portion 21 has an intake 211, and as rotating the adjustment column 20a to adjust water flows of the intake 211, the first opening 172 and the second opening 182 of the columnar part 101, a mixing ratio and a mixing temperature of the cold water and the hot water in the mixing chamber 22 are adjustable.
The water outflow portion 23 has at least one flowing hole 231 defined around a peripheral side of the water control valve 30 and communicating with the third opening 191 via the first cavity 13.
The cover 20b is secured in the adjustment column 20a and has a ventilation 270 so that a part of an actuation member 401 inserts through the ventilation 270 to drive the operation post 31 of the water control valve 30.
The definition loop 20c is locked in the first cavity 13 of the columnar part 101 so that the adjustment column 20a is limited in the first cavity 13.
The adjusting ring 20d is fitted on the adjustment column 20a and is operated by the user so as to drive the adjustment column 20a to revolve.
The actuation member 401 has a forced portion 43 and a driving portion 44 extending into the water outflow portion 23 of the temperature control valve 201 from a bottom of the forced portion 43 via the ventilation 270 of the cover 20b so as to drive the driving portion 44 of the operation post 31. The driving portion 44 has a limitation block 441 limited and moving in the water outflow portion 23.
The actuation member 401 further has a button 40a and a drive shaft 40b; wherein the button 40a has a forced portion 43, a pressing face 431 defined on a top of the forced portion 43, and a coupling portion 432 extending from the forced portion 43. The drive shaft 40b has a joining segment 442 and a contacting segment 443, wherein the joining segment 442 is in connection with the coupling portion 432, and the contacting segment 443 contacts with the operation post 31 and is adjacent to the limitation block 441. The coupling portion 432 of the button 40a and the drive shaft 40b form the driving portion 44.
A returning device 501 is a resilient element defined between the drive shaft 40b of the actuation member 401 and the water control valve 30, and the resilient element is a compression spring, as shown in
With reference to
The water supply assembly 105 further includes a connector 107 fixed on one end of the cylinder 104 opposite to the inlet segment 11; a connection tube 108 fitted between the connector 107 and a temperature control valve 202; a second outlet tube 109 fitted on the connector 107 and having the outlet segment 12.
Referring to
The valve seat 20e is accommodated in the first cavity 13 of the cylinder 104 and includes a first conduit 290 configured to flow the cold water, a second conduit 291 configured to flow the hot water, a flowing channel 292 configured to flow a mixing water of the cold water and the hot water, and a housing trench 293. The first conduit 290 has a cold-water inlet 294 formed on a first end thereof so as to connect with a cold-water inflow pipe 61, and the second conduit 291 has a hot-water inlet 295 arranged on a first end thereof so as to connect with a hot-water inflow pipe 62. The first conduit 290 has a first opening 296 formed on a second end thereof in the housing trench 293, and the second conduit 291 has a second opening 297 formed on a second end thereof in the housing trench 293; the flowing channel 292 has a third opening 298 formed on a first end thereof in the housing trench 293; the flowing channel 292 has a notch 299 defined on a second end thereof so as to connect with the connection tube 108 of the water supply assembly 105. The cold-water inlet 294 and the hot-water inlet 295 are located at the same side, and the notch 299 is opposite to the cold-water inlet 294 and the hot-water inlet 295.
Thereby, the adjustment column 20a is rotated within a rotatable range and is fixed in the housing trench 293. In addition, the definition loop 20c is locked in the first cavity 13, and the valve seat 20e and the adjustment column 20a are accommodated in the first cavity 13.
The touch faucet 4 further comprises an actuation member 402 identical to the actuation member 401 of the second embodiment, and the touch faucet 4 further comprises a returning device 50 identical to that of the second embodiment, so further remarks are omitted.
Referring to
The touch faucet 5 further comprises an actuation member 403 identical to the actuation member 402 of the third embodiment, and the touch faucet 5 further comprises a returning device 50 identical to that of the third embodiment, so further remarks are omitted.
Accordingly, the water control valve 30 is capable of saving and stopping the water supply automatically. For example, when the operation post 31 is driven to move, the water supply of the touch faucet is started for a period of time, and after the operation post 31 automatically moves back to the original position, the water supply is stopped.
When the water control valve 30 cannot stop the water supply, the actuation members 40, 401, 402, 403 are pressed so that the water control valve 30 stops the water supply.
Preferably, the actuation members 40, 401, 402, 403 cooperate with the returning device 50 so as to return back to the original positions automatically.
The actuation members 40, 401, 402, 403 are pressed to drive the operation post 31 of the water control valve 30 to stop the water supply easily.
The actuation members 40, 401, 402, 403 drive the water control valve 30 so as to avoid the water control valve 30 being touched by user's hand, thus preventing contamination of the water control valve 30.
The touch faucets 1, 3, 4, 5 are a pull-out faucet or a non pull-out faucet fixed in the bathroom or the kitchen so as to satisfy using requirements.
The touch faucets 1, 3, 4, 5 are capable of saving the water supply and adjusting water temperature by way of the water control valve 30 and the temperature control valves 20, 201, 202, 203.
While the preferred embodiments of the invention have been set forth for the purpose of disclosure, modifications of the disclosed embodiments of the invention as well as other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention.
Lin, Yiping, Yuan, Chiahua, Chiu, Huiling
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
May 23 2016 | CHIU, HUILING | Globe Union Industrial Corp | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038938 | /0810 | |
May 23 2016 | YUAN, CHIAHUA | Globe Union Industrial Corp | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038938 | /0810 | |
May 23 2016 | LIN, YIPING | Globe Union Industrial Corp | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038938 | /0810 | |
Jun 17 2016 | Globe Union Industrial Corp. | (assignment on the face of the patent) | / |
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